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  • AIP Publishing  (6)
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  • AIP Publishing  (6)
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  • 1
    Online Resource
    Online Resource
    Rapid sedimentation of microparticles by vertically asymmetric acoustofluidics in an equilateral triangular channel
    AIP Publishing ; 2023
    In:  Applied Physics Letters Vol. 122, No. 20 ( 2023-05-15)
    Details
    In: Applied Physics Letters, AIP Publishing, Vol. 122, No. 20 ( 2023-05-15)
    Abstract: The ability to settle particles in a fluid has a significant impact on many applications in fields like biology, chemistry, environment, and industrial processing. Here, we set up an acoustofluidics framework, based on an equilateral-triangular-channel design, which can generate vertically asymmetric acoustic pressure profiles and can result in unidirectionally downward acoustic radiation force and acoustic streaming-induced drag force on the pressure nodal plane, enabling rapid agglomeration and sedimentation of microparticles toward the channel wall. This approach is verified in an acoustofluidic device, mainly composed of an equilateral triangular glass capillary (with outer and inner side lengths of 2 and 1 mm, respectively) and two piezoelectric transducers (15 × 1.4 × 2 mm3), both experimentally and numerically and a good agreement is obtained. Specifically, ultrasound enhanced sedimentation of 10 μm polystyrene particles was used to demonstrate the efficiency of the system, which shows that, with the additional acoustic force fields, the acoustofluidic resonator had much higher sedimentation efficiency in comparison to the gravity-induced sedimentation in a fluid (which is about 7 min). The ultrasound enhanced settling efficiency (i.e., the settling time) in such a system is strongly dependent on the pressure magnitudes and the configuration of the acoustofluidic device. It was demonstrated that, at a driving voltage of 25 Vpp, the present device enables settling of 95% of the microparticles to the channel wall within 30 s and 100% at about 1 min.
    Type of Medium: Online Resource
    ISSN: 0003-6951 , 1077-3118
    URL: Article
    DOI: 10.1063/5.0141067
    RVK:
    UA 1000
    Language: English
    Publisher: AIP Publishing
    Publication Date: 2023
    detail.hit.zdb_id: 211245-0
    detail.hit.zdb_id: 1469436-0
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    Online Resource
  • 2
    Online Resource
    Online Resource
    Dexterous formation of unconventional Chladni patterns using standing bulk acoustic waves
    AIP Publishing ; 2020
    In:  Applied Physics Letters Vol. 117, No. 18 ( 2020-11-02)
    Details
    In: Applied Physics Letters, AIP Publishing, Vol. 117, No. 18 ( 2020-11-02)
    Abstract: Classical Chladni patterns formed by vibrations of flat plates have been studied for centuries and are well understood. In this Letter, we show dexterous formation of unconventional Chladni patterns in a fluid using standing bulk acoustic waves. A neat acoustofluidic resonator enabling visualization of microparticles in the fluid channel both on its cross section and in its flow direction was designed. In contrast to classical Chladni patterns, which depend on resonant modes of flat plates, the Chladni patterns herein are generated by vibrations of cylindrical walls and are related to resonant modes of fluid channels. The behavior of the acoustofluidic resonator is numerically predicted by applying an acoustic-structure interaction model to calculate the acoustic pressure distribution at different modes of resonances and the Gorkov theory to obtain the potential of the acoustic radiation forces that act on suspended particles. We also demonstrate numerically and experimentally that further focusing of microparticles can be achieved if the actuation of ultrasound continues after Chladni patterns are formed on the cross section of the fluid channel.
    Type of Medium: Online Resource
    ISSN: 0003-6951 , 1077-3118
    URL: Article
    DOI: 10.1063/5.0032304
    RVK:
    UA 1000
    Language: English
    Publisher: AIP Publishing
    Publication Date: 2020
    detail.hit.zdb_id: 211245-0
    detail.hit.zdb_id: 1469436-0
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    Online Resource
  • 3
    Online Resource
    Online Resource
    Gibbs free energy approach to the prediction of melting points of isolated, supported, and embedded nanoparticles
    AIP Publishing ; 2012
    In:  Journal of Applied Physics Vol. 112, No. 1 ( 2012-07-01)
    Details
    In: Journal of Applied Physics, AIP Publishing, Vol. 112, No. 1 ( 2012-07-01)
    Abstract: By means of the thermodynamic and thermophysical properties of bulk materials, the Gibbs free energies for isolated, supported, and embedded nanoparticles were obtained and used to elucidate the sized-dependent melting phenomenon of the nanoparticles. To account for the substrate effect upon the melting point of nanoparticles, the interfacial energy of binary immiscible systems was studied in detail. It was found that the interfacial energy of a binary immiscible system including carbon can be replaced almost entirely by the contribution from carbon; thus, the reason why the melting model of isolated nanoparticles can be applied to research the melting of the supported nanoparticles was clarified. Moreover, a new approach to achieving the diameter of the smallest crystalline nanoparticles was proposed based on the melting behavior of embedded nanoparticles.
    Type of Medium: Online Resource
    ISSN: 0021-8979 , 1089-7550
    URL: Article
    DOI: 10.1063/1.4730919
    Language: English
    Publisher: AIP Publishing
    Publication Date: 2012
    detail.hit.zdb_id: 220641-9
    detail.hit.zdb_id: 3112-4
    detail.hit.zdb_id: 1476463-5
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    Online Resource
  • 4
    Online Resource
    Online Resource
    Substrate effect on the melting temperature of gold nanoparticles
    AIP Publishing ; 2012
    In:  The Journal of Chemical Physics Vol. 136, No. 23 ( 2012-06-21)
    Details
    In: The Journal of Chemical Physics, AIP Publishing, Vol. 136, No. 23 ( 2012-06-21)
    Abstract: Previous experimental, molecular dynamics, and thermodynamic researches on the melting temperature of Au nanoparticles on tungsten substrate provide entirely different results. To account for the substrate effect upon the melting point of nanoparticles, three different substrates were tested by using a thermodynamic model: tungsten, amorphous carbon, and graphite. The results reveal that the melting point suppression of a substrate-supported Au nanoparticle is principally ruled by the free surface-to-volume ratio of the particle or the contact angle between the particle and the substrate. When the contact angle θ is less than 90°, a stronger size-dependent melting point depression compared with those for free nanoparticles is predicted; when the contact angle θ is greater than 90°, the melting temperature of the supported Au nanoparticles are somewhat higher than those for free nanoparticles.
    Type of Medium: Online Resource
    ISSN: 0021-9606 , 1089-7690
    URL: Article
    DOI: 10.1063/1.4729910
    Language: English
    Publisher: AIP Publishing
    Publication Date: 2012
    detail.hit.zdb_id: 3113-6
    detail.hit.zdb_id: 1473050-9
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  • 5
    Online Resource
    Online Resource
    Two-dimensional concentration of microparticles using bulk acousto-microfluidics
    AIP Publishing ; 2020
    In:  Applied Physics Letters Vol. 116, No. 3 ( 2020-01-21)
    Details
    In: Applied Physics Letters, AIP Publishing, Vol. 116, No. 3 ( 2020-01-21)
    Abstract: In this Letter, we report two-dimensional focusing of microparticles in a glass capillary whose cross section is square outside and round inside using bulk acousto-microfluidics. An imaging system allowing measurements of three-dimensional microparticle acoustophoresis is designed to simultaneously present the two-dimensional focusing processes from combinations of vertical and lateral views in a same frame. The underlying mechanisms of microparticle acoustophoresis in the glass capillary device are explained by a full-device numerical model, which solves the coupling of ultrasonic transducer, glass, and fluid layers of the experimental device. We show here that decent two-dimensional microparticle focusing can be achieved when acoustic pressure nodal lines are generated on cross sections of the fluid channel from the excitation of a single ultrasonic transducer. Based on the developed understanding, we further demonstrate here robust two-dimensional focusing of microparticles by creating an acoustic pressure node point at the channel center from excitations of two orthogonally placed ultrasonic transducers.
    Type of Medium: Online Resource
    ISSN: 0003-6951 , 1077-3118
    URL: Article
    DOI: 10.1063/1.5142670
    RVK:
    UA 1000
    Language: English
    Publisher: AIP Publishing
    Publication Date: 2020
    detail.hit.zdb_id: 211245-0
    detail.hit.zdb_id: 1469436-0
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  • 6
    Online Resource
    Online Resource
    Simultaneous imaging and manipulation of microparticles in horizontal and vertical planes of microchannels using a single objective lens
    AIP Publishing ; 2020
    In:  Applied Physics Letters Vol. 117, No. 22 ( 2020-11-30)
    Details
    In: Applied Physics Letters, AIP Publishing, Vol. 117, No. 22 ( 2020-11-30)
    Abstract: In this Letter, we present an experimental method that allows simultaneous imaging of microparticles in horizontal and vertical planes of a microchannel using a single objective lens to be achieved. This is done by implementing a specialized dual-prism arrangement, i.e., by placing two 67.5° right triangular prisms between the objective and the microfluidic channel. Apart from demonstrating simultaneous imaging of microparticles in orthogonal planes of a microchannel and discussing the applicability of the dual-prism configuration for efficient microchannel imaging, examples are also given for the imaging of microparticle alignment and motion in an acousto-microfluidic channel, where microparticles were found to be rapidly focused to the channel center under ultrasonic excitations. It is demonstrated here that, compared to the optical measurements using conventional microscopy, which generally can only ensure one plane of a microchannel in focus, the optical platform presented here enables more convenient and superior optical characterization of microparticles and acoustophoresis.
    Type of Medium: Online Resource
    ISSN: 0003-6951 , 1077-3118
    URL: Article
    DOI: 10.1063/5.0034974
    RVK:
    UA 1000
    Language: English
    Publisher: AIP Publishing
    Publication Date: 2020
    detail.hit.zdb_id: 211245-0
    detail.hit.zdb_id: 1469436-0
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    Online Resource
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